In this role, you will be responsible for
the development of state of the art and innovative technologies required to demonstrate and mature the fully continuous end-to-end protein production platform for therapeutic enzymes, different types of antibodies and other protein products.
In this role, you will be responsible for designing compression system hardware that meets or exceeds module and system requirements and will work collaboratively to solve problems with integrated product teams and system design teams.
In this role, you will review the design development of drawings, specifications, and calculation analyses; assistance with cost estimating; and services during bidding. The selected candidate will perform a variety of mechanical engineering skills from cradle to grave of a typical project, including the following tasks: scoping and estimating the level of engineering effort.
The position is responsible for assessing all aspects of commercial engine design (including part and module interaction) relative to established program metrics (performance, weight, cost, life, and other physical and functional requirements) as the product matures through subsequent IPD phases, and guiding /coordinating the delivery of design solutions (many via trade studies) that address gaps to or improvement of program metrics.
In this role, the selected candidate will develop creative rotating-to-static sealing solutions for developmental and operational engine programs; MS Seal Design SME will provide technical direction/guidance to multi-disciplinary teams that are responsible for the mechanical design and analysis of bearing compartment carbon sealing mechanisms for all commercial and military engines.
In this role, you will be responsible for performing advanced design and development of mechanical systems such as medical devices, robotic & articulated systems, rotating machinery and process control devices.
In this role, the selected candidate will apply probabilistic design and optimization methods to problems in mechanical structures and systems under uncertainty to optimize performance, weight, cost and/or computational time.